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Diethylaminoethyl Acrylate


Properties
Product Name Diethylaminoethyl acrylate
Cas Number 2439-35-2
Formula C9H17NO2
Molar Mass 171.24
Density Not Available
Boiling Point 200°C
Melting Point Not Available
Flash Point 82°C
Refractive Index 1.449
Viscosity Not Available
Solubility In Water slightly soluble
Vapor Pressure 0.127 mmHg at 25°C
Appearance clear liquid
Odor amine-like
Stability stable under recommended storage conditions
FAQ

What is the main application of diethylaminoethyl acrylate?

Diethylaminoethyl acrylate is a versatile chemical compound with several important applications.Diethylaminoethyl Acrylate is a versatile chemistry compound with many important applications.
One of its main uses is in the field of polymer synthesis.It is mainly used in polymer synthesis. It can be copolymerized with other monomers to create polymers with unique properties.It can be copolymerized to create polymers that have unique properties. For instance, in the production of cationic polymers, diethylaminoethyl acrylate contributes the amine - containing side chains.Diethylaminoethyl acrylicate, for example, contributes amine-containing side chains to the production of cationic Polymers. These cationic polymers find applications in water treatment.These cationic materials are used in water treatment. They can be used as flocculants, helping to aggregate suspended particles in water.They can be used to aggregate suspended particles by using them as flocculants. By neutralizing the charges on the particles, the polymers cause them to clump together, making it easier to separate the solids from the water through sedimentation or filtration processes.The polymers neutralize the charges on the particle, causing them to clump, making it easier for the water to be separated from the solids through sedimentation and filtration.

In the area of drug delivery systems, diethylaminoethyl acrylate is valuable.Diethylaminoethyl Acrylate is a valuable substance in the field of drug delivery systems. Polymers made from it can be designed to have pH - responsive properties.It can be used to create polymers with pH-responsive properties. The amine groups in the structure can protonate or deprotonate depending on the surrounding pH environment.The amine groups can be protonated or deprotonated depending on the pH environment. In the acidic environment of the stomach or in some tumor tissues which are often more acidic than normal tissues, the polymer can change its conformation.The polymer can change conformation in the acidic environment found in the stomach and some tumor tissues that are more acidic than normal tissue. This property can be exploited to encapsulate drugs and control their release.This property can be used to encapsulate and control the release of drugs. For example, a drug - loaded polymer particle made with diethylaminoethyl acrylate can remain stable in the relatively neutral environment of the bloodstream but release the drug when it reaches the acidic tumor site.For example, a polymer particle containing a drug-loaded diethylaminoethyl acrylicate can remain stable within the relatively neutral bloodstream environment but release the drug once it reaches an acidic tumor site.

It also has applications in the surface modification of materials.It can also be used to modify the surface of materials. When coated onto the surface of various substrates, such as textiles, plastics, or glass, it can introduce functional groups.It can introduce functional groups when coated onto the surface or various substrates such as glass, plastics or textiles. For textiles, this can improve dyeability.This can improve textile dyeability. The amine - containing groups can interact with dyes, enhancing the color uptake and fastness of the fabric.The amine-containing groups can interact and enhance the color uptake of the fabric. In the case of plastics, the modification can improve adhesion properties.In the case plastics, this modification can improve the adhesion properties. This is useful when bonding plastics to other materials or when applying coatings to plastics, as it helps the coating or adhesive to stick better to the plastic surface.This is useful for bonding plastics with other materials or for applying coatings on plastics.

In the synthesis of ion - exchange resins, diethylaminoethyl acrylate can be a key monomer.Diethylaminoethylacrylate is a monomer that can be used in the synthesis of resins for ion exchange. Ion - exchange resins are used in many industries, including the purification of water, separation of metal ions in mining operations, and in the food and beverage industry for demineralization and purification processes.Ion-exchange resins are used by many industries. They can be used to purify water, separate metal ions from mines, or purify and demineralize food and beverages. The amine groups in the resin structure can exchange ions with the surrounding solution, allowing for the selective removal or capture of specific ions.The resin structure contains amine groups that can exchange ions in the surrounding solution. This allows for the selective removal of or capture of specificions. Overall, diethylaminoethyl acrylate plays a significant role in various industrial and scientific applications due to its ability to confer unique chemical and physical properties to polymers and materials.Diethylaminoethyl acrylicate is used in many industrial and scientific applications because it can confer unique chemical and material properties.

What are the potential risks or side effects of using diethylaminoethyl acrylate?

Diethylaminoethyl acrylate is a chemical compound used in various industrial applications such as in the production of polymers, coatings, and adhesives.Diethylaminoethyl Acrylate is a chemical compound that has many industrial applications, including the production of polymers and adhesives. However, its use comes with several potential risks and side effects.Its use is not without risks and side-effects.
One of the main concerns is its potential for skin and eye irritation.Skin and eye irritation is a major concern. Contact with diethylaminoethyl acrylate can cause redness, itching, and burning sensations on the skin.Contact with diethylaminoethyl acrylicate can cause skin irritation, including redness, itchiness, and burning. In more severe cases, it may lead to skin sensitization, where repeated exposure can trigger allergic reactions.In more severe cases it can cause skin sensitization. Repeated exposure to the substance can trigger allergic reactions. For the eyes, it can cause intense irritation, pain, and may even result in damage to the cornea if not promptly flushed with water.It can cause severe irritation and pain in the eyes. If not immediately flushed out with water, it may even damage the cornea.

Inhalation of diethylaminoethyl acrylate vapors can also pose significant risks.Inhalation can also be dangerous. It can irritate the respiratory tract, leading to symptoms like coughing, shortness of breath, and wheezing.It can cause irritation of the respiratory tract and lead to symptoms such as wheezing, shortness breath, or coughing. Prolonged or high - level exposure through inhalation may further damage the lungs and could potentially increase the risk of developing respiratory diseases over time.Inhaling high levels of exposure or prolonged exposure can cause further damage to the lungs, increasing the risk for respiratory diseases.

There are also potential systemic health risks associated with this chemical.This chemical may also pose systemic health risks. Diethylaminoethyl acrylate may be absorbed into the body through the skin or lungs.Diethylaminoethyl Acrylate can be absorbed through the skin and lungs. Once inside the body, it can potentially affect various internal organs.Once inside the human body, it may affect various organs. Animal studies have suggested that it may have toxic effects on the liver and kidneys.Animal studies suggest that it could have toxic effects on liver and kidneys. These organs play crucial roles in filtering and eliminating toxins from the body, and any damage to them can disrupt normal bodily functions.These organs are crucial in filtering out and eliminating toxins, and any damage can disrupt normal bodily function.

Furthermore, from a reproductive and developmental perspective, there are uncertainties.There are also uncertainties from the perspective of reproductive and developmental development. Some chemicals with similar structures have shown potential to interfere with the endocrine system, which regulates hormones in the body.Some chemicals with similar structure have shown the potential to interfere with endocrine systems, which regulate hormones in the human body. This interference could potentially impact reproductive health, including fertility in both males and females.This interference may have a negative impact on reproductive health and fertility, both in males as well as females. It may also have adverse effects on the development of fetuses if pregnant individuals are exposed, although more research is needed to fully understand these potential impacts.It could also negatively impact the development of fetuses in pregnant women, although further research is required to fully understand this potential impact.

In conclusion, while diethylaminoethyl acrylate has important industrial uses, it is essential to handle it with extreme caution.Diethylaminoethyl Acrylate is a chemical that has many industrial applications. However, it must be handled with extreme caution. Adequate safety measures, such as proper ventilation, the use of personal protective equipment like gloves and goggles, and strict adherence to safety guidelines, are necessary to minimize the risks associated with its use.To minimize the risks, it is important to take adequate safety measures such as proper ventilation, personal protective equipment, like gloves and goggles and strict adherence of safety guidelines.

How is diethylaminoethyl acrylate synthesized?

Diethylaminoethyl acrylate can be synthesized through the following general steps:The following general steps can be used to synthesize diethylaminoethyl acrylicate:
1. Esterification reaction
The starting materials typically involve acrylic acid and diethylaminoethanol.Acrylic acid and diethylaminoethanol are usually the starting materials. In a reaction vessel, acrylic acid and diethylaminoethanol are mixed in an appropriate molar ratio.In a reaction vessel acrylic acid and diethylaminoethanol must be mixed in the appropriate molar proportion. Usually, a slight excess of one of the reactants may be used to drive the reaction towards the formation of the desired product.A slight excess of either of the reactants can be used to accelerate the reaction and lead to the desired product. For example, an excess of acrylic acid can help ensure that diethylaminoethanol is fully reacted.For example, a surplus of acrylic acid will help ensure that the diethylaminoethanol fully reacts.
A catalyst is often required to speed up this esterification reaction.A catalyst is required to accelerate this esterification. Sulfuric acid is a commonly used catalyst.Sulfuric is a common catalyst. It protonates the carbonyl group of acrylic acid, making it more electrophilic and facilitating the nucleophilic attack by the hydroxyl group of diethylaminoethanol.It protonates acrylic acid's carbonyl group, making it electrophilic. This makes the diethylaminoethanol hydroxyl group more nucleophilic. However, other catalysts like p - toluenesulfonic acid can also be employed.Other catalysts, such as p-toluenesulfonic acids, can also be used. p - toluenesulfonic acid has the advantage of being a relatively milder acid catalyst, which may reduce side - reactions.The p -toluenesulfonic acids has the advantage that it is a milder acid catalyst which may reduce side reactions.

2. Reaction conditions2.
The reaction is usually carried out under reflux conditions.Reactions are usually carried out in reflux conditions. Refluxing helps to maintain a constant reaction temperature, typically around the boiling point of the reaction mixture.Refluxing maintains a constant temperature for the reaction, usually around the boiling point. This allows for efficient heat transfer and ensures that the reaction proceeds at a reasonable rate.This allows for efficient heat transfers and ensures the reaction proceeds at an acceptable rate. The reaction time can vary, usually several hours, depending on factors such as the catalyst concentration, reactant ratio, and the efficiency of the reaction setup.The reaction time is variable, usually varying from several hours to a few days, depending on the catalyst concentration, the ratio of reactants, and the efficiency in the reaction setup.
During the reaction, water is formed as a by - product.Water is formed during the reaction as a by-product. To shift the equilibrium towards the formation of diethylaminoethyl acrylate, it is beneficial to remove the water from the reaction system.It is advantageous to remove water from the reaction system in order to shift the equilibrium toward the formation of diethylaminoethylacrylate. One common method is to use a Dean - Stark apparatus.The Dean-Stark apparatus is a common way to do this. This device allows the water to be separated from the reaction mixture as it is formed, which helps drive the reaction forward according to Le Chatelier's principle.This device allows water to be separated as the reaction mixture is formed. This helps to drive the reaction along according to Le Chatelier’s principle.

3. Post - reaction treatment3.
After the reaction is complete, the reaction mixture needs to be treated to obtain the pure diethylaminoethyl acrylate.After the reaction has completed, the reaction mixture must be treated to obtain pure diethylaminoethyl acrylicate. First, the catalyst needs to be neutralized.The catalyst must first be neutralized. If sulfuric acid was used as the catalyst, a base such as sodium carbonate or sodium hydroxide can be added carefully to neutralize the acid.If sulfuric acid is used as a catalyst, you can add a base like sodium carbonate or Sodium hydroxide to neutralize it. This should be done with caution to avoid excessive heat generation and potential side - reactions.It is important to proceed with caution in order to avoid excessive heat and side reactions.
Then, the mixture may be subjected to liquid - liquid extraction.The mixture can then be extracted using liquid-liquid extraction. An organic solvent immiscible with water, such as dichloromethane or ethyl acetate, can be used to extract the diethylaminoethyl acrylate from the aqueous phase.Dichloromethane, ethyl Acetate or other organic solvents that are miscible with water can be used to remove the diethylaminoethyl acrylicate from the aqueous solution. The organic phase containing the product is then dried over anhydrous salts like magnesium sulfate or sodium sulfate to remove any remaining water.The organic phase containing product is dried over anhydrous sodium or magnesium sulfate salts to remove any remaining moisture.
Finally, the solvent is removed by distillation under reduced pressure.The solvent is then removed using distillation under reduced pressurized. Diethylaminoethyl acrylate has a certain boiling point, and by carefully controlling the distillation conditions, the pure product can be obtained.Diethylaminoethyl Acrylate has a specific boiling point. By carefully controlling the conditions of distillation, the pure product is obtained. This distillation step also helps to further purify the product by separating it from any remaining impurities or unreacted starting materials.This step helps to purify the product further by separating out any impurities and unreacted materials.

What are the storage requirements for diethylaminoethyl acrylate?

Diethylaminoethyl acrylate is a chemical compound with certain storage requirements to ensure safety and maintain its quality.Diethylaminoethyl Acrylate is a chemical compound that has certain storage requirements for safety and quality.
Firstly, it should be stored in a cool place.It should be kept in a cool, dry place. High temperatures can accelerate chemical reactions, potentially leading to decomposition or polymerization of diethylaminoethyl acrylate.High temperatures can accelerate chemical reaction, which could lead to the decomposition or polymerization. A storage temperature preferably below 25 degrees Celsius helps to minimize these risks.These risks can be minimized by storing the compound at a temperature below 25 degrees Celsius. Avoid areas that are subject to direct sunlight or heat sources like radiators or industrial heaters, as the heat from these can cause the compound to degrade.Avoid areas with direct sunlight, or heat sources such as radiators or industrial heaters. The heat from these sources can cause the compound degradation.

Secondly, it must be stored in a well - ventilated area.Second, it should be stored in an area that is well-ventilated. Diethylaminoethyl acrylate may release vapors, and in a poorly ventilated space, these vapors can accumulate.Diethylaminoethyl Acrylate can release vapors. In a poorly ventilated area, these vapors may accumulate. This not only poses a health risk if inhaled but also increases the potential for flammability or explosion in the presence of an ignition source.Inhaling this substance can be harmful, and it also increases the risk of flammability or an explosion if there is an ignition source. Good ventilation helps to disperse any released vapors, reducing the concentration to safe levels.Good ventilation will help disperse the vapors and reduce their concentration to a safe level.

Thirdly, the storage container is crucial.Thirdly, it is important to have a storage container. It should be made of a material that is compatible with diethylaminoethyl acrylate.It should be made from a material compatible with diethylaminoethyl acrylicate. For example, containers made of certain types of plastics or metals may react with the compound.Containers made from certain metals or plastics can react with the compound. Stainless - steel or glass containers are often good choices as they are less likely to react chemically with diethylaminoethyl acrylate.Stainless steel or glass containers can be good choices because they are less likely than other materials to react chemically with the diethylaminoethyl acrylicate. The container should also be tightly sealed to prevent leakage and evaporation.The container must be tightly sealed in order to prevent evaporation and leakage. Any leakage can contaminate the surrounding environment and pose risks to people and property.Any leakage could contaminate the environment and pose a risk to people and property.

Fourthly, it should be stored away from oxidizing agents, acids, and bases.It should also be kept away from acids and bases. Diethylaminoethyl acrylate can react violently with these substances.Diethylaminoethylacrylate can react violently when it comes into contact with these substances. Oxidizing agents can cause oxidation reactions, while acids and bases can initiate hydrolysis or other chemical changes that can damage the compound and may lead to dangerous by - products or reactions.Acids and bases can cause hydrolysis and other chemical reactions that can damage a compound and lead to dangerous by-products or reactions.

Finally, proper labeling of the storage area and the containers is essential.Labeling the storage area as well as the containers is crucial. The label should clearly indicate the presence of diethylaminoethyl acrylate, along with any relevant safety information such as its hazardous nature, storage conditions, and first - aid measures in case of contact or exposure.The label should clearly state the presence of diethylaminoethyl acrylicate, as well as any relevant safety information, such a its hazardous nature, stored conditions, and first-aid measures in case of exposure or contact. This helps ensure that anyone handling or working in the vicinity is aware of the potential risks and can take appropriate precautions.This ensures that anyone working or handling the product is aware of any potential risks, and can take the appropriate precautions.

Is diethylaminoethyl acrylate safe for use in certain industries or applications?

Diethylaminoethyl acrylate is a chemical compound with specific properties that determine its safety in different industries and applications.Diethylaminoethyl Acrylate is a chemical compound that has specific properties which determine its safety for different industries and applications.
In the polymer industry, it is used as a monomer to create polymers with unique characteristics.In the polymer industry it is used as monomer to create unique polymers. For instance, in the production of water - soluble polymers, its presence can confer certain solubility and reactivity features.In the production of water-soluble polymers, for example, its presence can confer some solubility and reactivity characteristics. From a safety perspective, when handling diethylaminoethyl acrylate in a controlled industrial polymer - making environment, workers are typically required to follow strict safety protocols.Workers are required to adhere to strict safety protocols when handling diethylaminoethyl acrylicate in an industrial polymer-making environment. This includes wearing appropriate personal protective equipment like gloves, goggles, and lab coats to prevent skin contact and eye exposure.Wearing protective gear like lab coats, goggles and gloves is important to avoid skin and eye contact. Inhalation is also a concern, so proper ventilation systems are installed in production facilities to keep the air free from high concentrations of its vapors.Inhalation of the vapors is also a concern. Therefore, ventilation systems are installed to keep the air clear. If these safety measures are adhered to, its use in polymer synthesis can be relatively safe.If these safety precautions are followed, its use in the polymer synthesis process can be relatively safe.

In the coatings and adhesives industry, diethylaminoethyl acrylate can be used to modify the properties of the final product.Diethylaminoethyl Acrylate is used in the coatings and adhesives industries to modify the properties of a final product. It can enhance adhesion or provide specific chemical reactivity for cross - linking.It can be used to enhance adhesion, or provide specific chemical reactivity in cross-linking. However, similar to the polymer industry, safety precautions are crucial.Safety precautions are important, just as in the polymer industry. The chemical can be irritating to the skin, eyes, and respiratory system.The chemical can irritate the skin, eyes and respiratory system. Workers involved in formulating coatings and adhesives need to be well - trained in handling the substance.The substance must be handled by workers who are involved in the formulation of adhesives and coatings. In addition, the storage of diethylaminoethyl acrylate must be carefully managed.Diethylaminoethyl Acrylate should also be stored with care. It should be stored in a cool, dry place away from heat sources and incompatible materials to prevent chemical reactions that could lead to dangerous situations.It should be kept in a cool and dry place, away from heat sources or incompatible materials. This will prevent any chemical reactions which could lead to dangerous situations.

In some biomedical applications, its use is more restricted.In some biomedical uses, its use may be more restricted. Although it has potential for creating certain types of biomaterials due to its chemical reactivity, its inherent toxicity and potential for causing allergic reactions pose significant challenges.Its chemical reactivity makes it a good candidate for biomaterials, but its inherent toxicity can cause allergic reactions and is a significant challenge. The body's response to diethylaminoethyl acrylate is not fully understood in all contexts, and thus, its use in direct contact with living tissues is generally avoided.Diethylaminoethyl Acrylate's effect on the body is not well understood. It is therefore generally avoided in direct contact with living tissue. In contrast, in applications where it is used in a more controlled, non - tissue - contacting way, such as in some types of medical device coatings that are designed to be inert after polymerization, it may be considered under strict regulatory approval.In contrast, it can be used in a controlled, non-tissue-contacting way in certain types of medical device coatings, which are designed to remain inert following polymerization.

Overall, diethylaminoethyl acrylate can be used safely in certain industries like polymers, coatings, and adhesives when proper safety measures are in place.When safety measures are taken, diethylaminoethyl-acrylate can be used in certain industries, such as polymers, adhesives, and coatings. However, its use in biomedical applications is more limited due to concerns about its potential effects on living organisms.Its use in biomedical application is limited due to concerns over its potential effects on living beings. Regulatory bodies play a crucial role in setting guidelines to ensure that its use, regardless of the industry, does not pose unacceptable risks to human health and the environment.Regulatory bodies are crucial in setting guidelines that ensure its use, irrespective of industry, does pose unacceptable risks to the human health and environment.